carnevalemanfredonia.it
» » General Relativity: An Introduction to the Theory of Gravitational Field

eBook General Relativity: An Introduction to the Theory of Gravitational Field download

by John Stewart,Martin Pollock,Hans Stephani

eBook General Relativity: An Introduction to the Theory of Gravitational Field download ISBN: 0521379415
Author: John Stewart,Martin Pollock,Hans Stephani
Publisher: Cambridge University Press; 2 edition (June 29, 1990)
Language: English
Pages: 335
ePub: 1543 kb
Fb2: 1451 kb
Rating: 4.5
Other formats: mbr lit docx txt
Category: Math Sciences
Subcategory: Astronomy and Space Science

Make no mistake, it is less of an introduction (than, say,Schutz) and less expansive (than, say, Wald) than others. However there are many delightful discussions (and, oft neglected sidelines-say, Interior Schwarzschild Solution). As an advanced introduction (that is, after Schutz) I consider it to be highly useful to the student of General Relativity, my reasons: (1) Lagrangians: free particles first ! Read Pages 14-18. Hans Stephani wastes no time in getting to the heart of the matter.

The book has visible damages (like underlining and highlighting sentences) but remains in good working condition. Fast delivery and a good book for reading. General Relativity: An Introduction to the Theory of Gravitational Field by Hans Stephani (1990-06-29) Paperback – 1739. by. Hans Stephani (Author). Find all the books, read about the author, and more.

Stephani, Hans; Stewart, John M. Publication date. Books for People with Print Disabilities. Internet Archive Books. Uploaded by Tracey Gutierres on December 18, 2012. SIMILAR ITEMS (based on metadata) play Play All. Terms of Service (last updated 12/31/2014).

The theory of general relativity has been, from its very beginning, a source.

Pollock and John Stewart) Cambridge Univ. The theory of general relativity has been, from its very beginning, a source. of inspiration and the subject of interest to many mathematicians.

General Relativity book. Details (if other): Cancel. Thanks for telling us about the problem. The experimental evidence has been updated and the sections on quantum. General Relativity: An Introduction to the Theory of Gravitational Field.

The theory of general relativity has been, from its very beginning, a source of inspiration and the subject of interest to many mathematicians. David Hubert and Hermann Weyl became fascinated with the idea of geometrizing all of fundamental physics. Weyl proposed to unify gravitation with electro-magnetism in terms of a conformai geometry and a connection; he referred to conformai changes of the metric tensor as "gauge transformations"

General Relativity is a graduate textbook on Albert Einstein's general theory of relativity written by the gravitational physicist Robert Wald

General Relativity is a graduate textbook on Albert Einstein's general theory of relativity written by the gravitational physicist Robert Wald. Published by the University of Chicago in 1984, the book, a tome of almost 500 pages, covers many aspects of the general theory of relativity. It is divided into two parts. Part I covers the fundamentals of the subject and Part II the more advanced topics such as causal structure, and quantum effects. It is aimed at beginning graduate students.

General theory of relativity 1 Tittle U1. Stewart, John, /943- IT.

1. The general solution of the field equations 1. Matching conditions and connection to the exterior.

Translation of: Allgemeine. 1. Schwarzschild solution 1. A discussion of the interior Schwarzschild solution 12 The Reissner-Nordstrom (Reissner-Weyl) solution. Linearized theory of gravitation, far fields and gravitational waves 13 The linearized Einstein theory of gravitation 1. Justification for a linearized theory and its realm of.

This book is an excellent introduction to the subjects of gravitation and space-time structure. Overall I would rate it among the top introductory books to the General Theory of Relativity. It presumes a good background in special relativity, electrodynamics, and classical mechanics. The book discusses the foundations of Riemannian geometry; the derivation of the Einstein field equations; linearised theory, far fields and gravitational waves; the invariant characterization of exact solutions; gravitational collapse; cosmology; and a final chapter deals with alternative gravitation theories and the problem of quantum gravity.

This book is an excellent introduction to the subjects of gravitation and space-time structure. It presumes a good background in special relativity, electrodynamics, and classical mechanics. The book discusses the foundations of Riemannian geometry; the derivation of the Einstein field equations; linearised theory, far fields and gravitational waves; the invariant characterization of exact solutions; gravitational collapse; cosmology; and a final chapter deals with alternative gravitation theories and the problem of quantum gravity. This revised and correct edition brings the experimental evidence up to date. In addition, the sections on quantum gravity have been rewritten and enlarged, and now form a coherent introduction to this subject.
Comments: (4)
ℓo√ﻉ
This book is an excellent introductory text, and provides important insights into the mathematical properties of the theory. It covers the classic topics in general relativity, provides an instructive analysis of the field equations, and even begins to discuss topics like quantum field theory in curved space-time and black hole thermodynamics. After this book, I recommend Wald's General Relativity as the next step.
Gralmeena
Recently, I have used the book for some topics on GR and Cosmology. The basic Qs you expect from a book are WHY and HOW and this is the only book I came across on GR that answers both Qs. Although the HOW part is very short and examples are few but this book is clear and concise in all its treatments of GR which reflects the clear thinking of the author and his authority on the subject.

There are diagrams and drawing where needed and most important of all is that every chapter includes the references. In combination with a book like Inverno, where the mathematical treatment is extensive, it can be a great self-study combination.

Only the layout of this book is somewhat confusing and I guess that is due to the German translation and the fact that this is actually the compilation of the lectures but anyway it is much better than most of the recent text available on general relativity. Font size is small so it makes this book of 298 pages perhaps equivalent to 400 pages of larger font book. It is one of those books which convey the message clearly in one sentence instead of one page and perfectly suitable for the self-study. By the way I have Wheeler, Rindler, Inverno, Hartle and Dirac and this one I like most when it comes to self-study in limited time.

The chapters are in following order:

1:Introduction.

2:Foundation of Riemannian geometry.

3:Foundation of Einstein's theory of gravitation.

4:Linearised theory of gravitation, far field and gravitational waves.

5:Invariant character of exact solutions.

6:Gravitational collapse and black holes.

7:Cosmology.

8:Non-Einstein theories of gravitation.
Virn
This book is fairly complete in its coverage of the field of GR. Most of what one would expect to find is there -- an overview of tensor analysis, physical motivations, the classical solutions to Einstein's field equations, black holes and cosmology, and even some more advanced topics like a brief digression on quantum gravity.
However, the mathematical approach is old-fashioned and boring (for instance, tensors are still defined in terms of their behavior regarding coordinate transformation; no reference to multilinear forms and modern differential geometry). The analytical tools are introduced as a granitic block, somewhat disconnected from the physical reality they will be applied to. The exercises are definitely not inspired: they fail to be oriented towards developing the firm physical intuition and computational skills needed to effectively working out real-life problems -- I mean a researcher's real life, of course :-)
Overall and honestly, Stephani's book resembles works written over half a century ago, to which some notes on advanced topics are appended. Schutz's introductory text "A First Course in General Relativity" and Wald's more ambitious "General Relativity" are much better in all aspects.
Olwado
One of the very best texts currently available. Features an excellent choice of topics, superbly organized and clearly presented (well translated from the German original). Particularly strong on algebraic symmetries and invariant classification in addition to the usual topics.